Featured Publications
Neuronal impact of patient-specific aberrant NRXN1α splicing
Flaherty E, Zhu S, Barretto N, Cheng E, Deans PJM, Fernando MB, Schrode N, Francoeur N, Antoine A, Alganem K, Halpern M, Deikus G, Shah H, Fitzgerald M, Ladran I, Gochman P, Rapoport J, Tsankova NM, McCullumsmith R, Hoffman GE, Sebra R, Fang G, Brennand KJ. Neuronal impact of patient-specific aberrant NRXN1α splicing. Nature Genetics 2019, 51: 1679-1690. PMID: 31784728, PMCID: PMC7451045, DOI: 10.1038/s41588-019-0539-z.Peer-Reviewed Original ResearchMeSH KeywordsAlternative SplicingAnimalsAutism Spectrum DisorderBipolar DisorderCalcium-Binding ProteinsCase-Control StudiesDepressive Disorder, MajorFemaleGene ExpressionHeterozygoteHumansInduced Pluripotent Stem CellsMaleMiceNeural Cell Adhesion MoleculesProtein IsoformsSchizophreniaSequence Deletion
2023
Contributions of circadian clock genes to cell survival in fibroblast models of lithium-responsive bipolar disorder
Mishra H, Wei H, Rohr K, Ko I, Nievergelt C, Maihofer A, Shilling P, Alda M, Berrettini W, Brennand K, Calabrese J, Coryell W, Frye M, Gage F, Gershon E, McInnis M, Nurnberger J, Oedegaard K, Zandi P, Kelsoe J, McCarthy M. Contributions of circadian clock genes to cell survival in fibroblast models of lithium-responsive bipolar disorder. European Neuropsychopharmacology 2023, 74: 1-14. PMID: 37126998, DOI: 10.1016/j.euroneuro.2023.04.009.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBipolar DisorderCaspasesCell SurvivalCircadian ClocksCircadian RhythmFibroblastsLithiumMiceConceptsCell survival genesCircadian clockSurvival genesCell survivalCircadian clock genesCircadian rhythmGenetic variationClock genesKnockdown studiesCaspase activityCell deathMolecular pathwaysPrimary fibroblastsCellular modelGenesMouse fibroblastsFibroblast modelApoptosisStaurosporinePER1FibroblastsOpposite mannerLithium responsivenessDistinct patternsClock
2022
A bidirectional competitive interaction between circHomer1 and Homer1b within the orbitofrontal cortex regulates reversal learning
Hafez A, Zimmerman A, Papageorgiou G, Chandrasekaran J, Amoah S, Lin R, Lozano E, Pierotti C, Dell'Orco M, Hartley B, Alural B, Lalonde J, Esposito J, Berretta S, Squassina A, Chillotti C, Voloudakis G, Shao Z, Fullard J, Brennand K, Turecki G, Roussos P, Perlis R, Haggarty S, Perrone-Bizzozero N, Brigman J, Mellios N. A bidirectional competitive interaction between circHomer1 and Homer1b within the orbitofrontal cortex regulates reversal learning. Cell Reports 2022, 38: 110282. PMID: 35045295, PMCID: PMC8809079, DOI: 10.1016/j.celrep.2021.110282.Peer-Reviewed Original ResearchConceptsImportance of circRNAsRNA-binding proteinSynaptic gene expressionCircular RNAsGene expressionOrbitofrontal cortexCompetitive interactionsComplete rescuePsychiatric disordersKnockdownSynaptic expressionMechanistic insightsBrain functionMRNAHomer1bBehavioral flexibilityNeuronal culturesExpressionBiogenesisCircRNAsRNAProteinRegulatesReversal learningDisorders
2021
Circadian rhythms in bipolar disorder patient-derived neurons predict lithium response: preliminary studies
Mishra H, Ying N, Luis A, Wei H, Nguyen M, Nakhla T, Vandenburgh S, Alda M, Berrettini W, Brennand K, Calabrese J, Coryell W, Frye M, Gage F, Gershon E, McInnis M, Nievergelt C, Nurnberger J, Shilling P, Oedegaard K, Zandi P, Kelsoe J, Welsh D, McCarthy M. Circadian rhythms in bipolar disorder patient-derived neurons predict lithium response: preliminary studies. Molecular Psychiatry 2021, 26: 3383-3394. PMID: 33674753, PMCID: PMC8418615, DOI: 10.1038/s41380-021-01048-7.Peer-Reviewed Original ResearchConceptsNeuronal precursor cellsBipolar disorderCircadian rhythm abnormalitiesRhythm abnormalitiesBD groupCircadian rhythmPatient-derived neuronsMania/hypomaniaExpression of Per2Induced pluripotent stem cellsPER2 protein levelsGlutamatergic neuronsRecurrent episodesBD patientsControl neuronsLithium respondersEffective drugsNeuropsychiatric illnessLithium responsivenessPatient neuronsNeuronsLithium responseProtein levelsRhythm deficitsPrecursor cells
2020
A psychiatric disease-related circular RNA controls synaptic gene expression and cognition
Zimmerman AJ, Hafez AK, Amoah SK, Rodriguez BA, Dell’Orco M, Lozano E, Hartley BJ, Alural B, Lalonde J, Chander P, Webster MJ, Perlis RH, Brennand KJ, Haggarty SJ, Weick J, Perrone-Bizzozero N, Brigman JL, Mellios N. A psychiatric disease-related circular RNA controls synaptic gene expression and cognition. Molecular Psychiatry 2020, 25: 2712-2727. PMID: 31988434, PMCID: PMC7577899, DOI: 10.1038/s41380-020-0653-4.Peer-Reviewed Original ResearchConceptsSynaptic gene expressionCircular RNAsGene expressionAlternative mRNA transcriptsDisease-associated circRNAsHomolog 1Neuronal RNAMRNA transcriptsRNASynaptic expressionAge of onsetMammalian brainCircRNAsPotential involvementDorsolateral prefrontal cortexOrbitofrontal cortexBipolar disorderPrefrontal cortexKnockdownExpressionFrontal cortexSynaptic plasticityNeuronal culturesPsychiatric diseasesMouse orbitofrontal cortex
2018
Chronotype and cellular circadian rhythms predict the clinical response to lithium maintenance treatment in patients with bipolar disorder
McCarthy MJ, Wei H, Nievergelt CM, Stautland A, Maihofer AX, Welsh DK, Shilling P, Alda M, Alliey-Rodriguez N, Anand A, Andreasson OA, Balaraman Y, Berrettini WH, Bertram H, Brennand KJ, Calabrese JR, Calkin CV, Claasen A, Conroy C, Coryell WH, Craig DW, D’Arcangelo N, Demodena A, Djurovic S, Feeder S, Fisher C, Frazier N, Frye MA, Gage FH, Gao K, Garnham J, Gershon ES, Glazer K, Goes F, Goto T, Harrington G, Jakobsen P, Kamali M, Karberg E, Kelly M, Leckband SG, Lohoff F, McInnis MG, Mondimore F, Morken G, Nurnberger JI, Obral S, Oedegaard KJ, Ortiz A, Ritchey M, Ryan K, Schinagle M, Schoeyen H, Schwebel C, Shaw M, Shekhtman T, Slaney C, Stapp E, Szelinger S, Tarwater B, Zandi PP, Kelsoe JR. Chronotype and cellular circadian rhythms predict the clinical response to lithium maintenance treatment in patients with bipolar disorder. Neuropsychopharmacology 2018, 44: 620-628. PMID: 30487653, PMCID: PMC6333516, DOI: 10.1038/s41386-018-0273-8.Peer-Reviewed Original ResearchConceptsBipolar disorderEffects of lithiumMaintenance treatmentBD patientsCircadian rhythmMinority of patientsLithium maintenance treatmentMood stabilizer treatmentSerious mood disorderCircadian rhythm abnormalitiesCircadian rhythm parametersClinical responseCircadian rhythm functionLithium monotherapyClinical trialsMood disordersRhythm abnormalitiesMood symptomsPharmacological effectsPatientsEvening chronotypeStabilizer treatmentCommon genetic variationRhythm parametersMonotherapyMarker chromosome genomic structure and temporal origin implicate a chromoanasynthesis event in a family with pleiotropic psychiatric phenotypes
Grochowski CM, Gu S, Yuan B, Julia T, Brennand KJ, Sebat J, Malhotra D, McCarthy S, Rudolph U, Lindstrand A, Chong Z, Levy DL, Lupski JR, Carvalho CMB. Marker chromosome genomic structure and temporal origin implicate a chromoanasynthesis event in a family with pleiotropic psychiatric phenotypes. Human Mutation 2018, 39: 939-946. PMID: 29696747, PMCID: PMC5995661, DOI: 10.1002/humu.23537.Peer-Reviewed Original ResearchConceptsWhole-genome sequencingSmall supernumerary marker chromosomeChromosomal fragmentsMarker chromosomesGenomic structureComparative genomic hybridization analysisSupernumerary marker chromosomeGenomic hybridization analysisTemporal originHybridization analysisArray comparative genomic hybridization analysisChromosome 9Short armRepair mechanismsMarker genotypesChromosomesPrecise architectureProband's maternal grandmotherStructural variationsPsychiatric phenotypesFurther complexityFragmentsDuplicationSequencingPhenotype
2016
The Pharmacogenomics of Bipolar Disorder study (PGBD): identification of genes for lithium response in a prospective sample
Oedegaard K, Alda M, Anand A, Andreassen O, Balaraman Y, Berrettini W, Bhattacharjee A, Brennand K, Burdick K, Calabrese J, Calkin C, Claasen A, Coryell W, Craig D, DeModena A, Frye M, Gage F, Gao K, Garnham J, Gershon E, Jakobsen P, Leckband S, McCarthy M, McInnis M, Maihofer A, Mertens J, Morken G, Nievergelt C, Nurnberger J, Pham S, Schoeyen H, Shekhtman T, Shilling P, Szelinger S, Tarwater B, Yao J, Zandi P, Kelsoe J. The Pharmacogenomics of Bipolar Disorder study (PGBD): identification of genes for lithium response in a prospective sample. BMC Psychiatry 2016, 16: 129. PMID: 27150464, PMCID: PMC4857276, DOI: 10.1186/s12888-016-0732-x.Peer-Reviewed Original ResearchConceptsLithium monotherapyBipolar disorderLithium responseMechanism of actionClinical managementValproic acidLithium respondersSingle nucleotide polymorphismsMethods/designThis studyCox proportional hazards modelProspective study sampleLarge prospective cohortLarge prospective studiesClinical Global ImpressionInitiation of treatmentMood-stabilizing medicationsBipolar Disorder (STEP-BD) studyProportional hazards modelResults of treatmentCommon psychiatric disordersMEq/L.Genome-wide association studiesClinical relapseProspective cohortRemitting course
2015
Differential responses to lithium in hyperexcitable neurons from patients with bipolar disorder
Mertens J, Wang Q, Kim Y, Yu D, Pham S, Yang B, Zheng Y, Diffenderfer K, Zhang J, Soltani S, Eames T, Schafer S, Boyer L, Marchetto M, Nurnberger J, Calabrese J, Oedegaard K, McCarthy M, Zandi P, Alda M, Nievergelt C, Mi S, Brennand K, Kelsoe J, Gage F, Yao J. Differential responses to lithium in hyperexcitable neurons from patients with bipolar disorder. Nature 2015, 527: 95-99. PMID: 26524527, PMCID: PMC4742055, DOI: 10.1038/nature15526.Peer-Reviewed Original Research